KR101529591B1 - Trip device for curcuit breaker - Google Patents

Abstract

A trip device for a circuit breaker according to the present invention comprises: a first terminal connected to the power or load; a second terminal connected to the power or load; and a bimetal with one end having a single open-ended slot and the other end divided into a first end and a second end which are connected to the first terminal and the second terminal, respectively. The bimetal is heated by a current flowing between the first terminal and the second terminal and the heat value varies depending on the length of the slot. The trip device for the circuit breaker therefore adjusts the distance between the first terminal and the second terminal traveled by the current in order to control the value of resistance as well as the heat value and curvature of the bimetal to set a desired rated current. In other words, the value of resistance, heat value and curvature of the bimetal increase as the distance between the first terminal and the second terminal traveled by the current increases when the length of the slot is long and as a result, a sufficient heat value can be obtained at a low rated current to implement a low-rated current circuit breaker capable of effectively detecting fault current. Also, the value of resistance, heat value and curvature of the bimetal decrease as the distance between the first terminal and the second terminal traveled by the current decreases when the length of the slot is short, which enables the implementation of a high-rated current circuit breaker capable of effectively detecting a fault current at a high rated current without damaging the bimetal and perhaps a circuit breaker suitable for a specific rated current between a low rated current and a high rated current.

Description

[0001] TRIP DEVICE FOR CURCUIT BREAKER [0002]

The present invention relates to a trip device for a circuit breaker, and more particularly to a trip device using a bimetal as a trip device.

Generally, a circuit breaker is a kind of electric device that protects a load device and a circuit by automatically opening and closing an electric circuit by using a handle, detecting a fault current such as a short circuit current, and automatically shutting off the circuit.

Hereinafter, the trip devices 60 and 60 'of the conventional circuit breaker will be described with reference to FIGS. 1 to 3 attached hereto.

1, the conventional circuit breaker includes a case 10, a stationary contactor 20 fixedly disposed on the case 10, and a fixed contactor 20 disposed so as to be contactable with and separable from the stationary contactor 20 An openable / closable mechanism 40 for opening and closing the movable contactor 30, and an indirect tripping operation for triggering the operation of the opening / closing mechanism 40 by automatically detecting a fault current such as a short- The opening and closing mechanism 40 includes a handle 60 for releasing the restraint of the latch 50 (not shown) of the opening and closing mechanism 40 when the handle 50 is manually opened and closed and the curved bimetal 62 And includes a crossbar 42 that performs a so-called trigger function until then.

In general, the trip device is an indirect type in which the bimetal flows directly through the bimetal to directly heat the bimetal and is heated through a heater which is a separate heating member. The trip device shown in Fig. 1 is an indirect trip device 60, A first terminal 66 connected to a power source side or a load side circuit at one side and to a heater 64b of a second terminal 64 to be described later at the other side and a second terminal 66 connected to a load side or a power source side circuit at one side, A second terminal 64 connected to the first terminal 66 via a heater 64b and a second terminal 64 connected to the second terminal 64 so as to face the heater 64b and heated by the heater 64b, And a bimetal 62 curved in one direction as it ascends.

With this configuration, when a fault current is supplied, a current flows between the first terminal 66 and the second terminal 64 to generate the heater 64b, and the heater 64b, which generates heat, The bimetal 62 with the increased temperature curves to the right in Fig. 2 and rotates the crossbar 42 through the pressing member 62a to release the latch (not shown) of the opening / closing mechanism 40. When the restraint of the latch (not shown) is released, the movable contactor 30 is quickly separated from the fixed contactor 20 by the elastic force of the trip spring (not shown) of the opening / closing mechanism 40.

Since the indirect trip device 60 is a type in which the bimetal 62 does not directly generate heat but the heater 64b which is a separate heating member generates heat to heat the bimetal 62, (62) damage and is mainly used in circuit breakers for high rated currents.

3 shows the direct trip device 60 ', which is connected to the power source side or the load side circuit at one side and the bimetal 62 (62') at the other side via the lead wire 66c ' A first terminal 66 'connected to one side of the bimetal 62', a second terminal 64 'connected to the load side or the power source side circuit at one side and the other side of the bimetal 62' at the other side, The bimetal 62 'is connected to the lead wire 66c' of the terminal 66 'and the other terminal is connected to the second terminal 64' to generate a direct current when the current flows.

With this configuration, when a fault current is supplied, a current flows from the second terminal 64 'to the first terminal 66' through the bimetal 62 'to directly heat the bimetal 62' The bimetal 62 'whose temperature has been raised by the bending is bent to the right side of Fig. 3 and rotates the crossbar 42 through the pressing member 62a' to release the latch (not shown) of the opening and closing mechanism 40. When the restraint of the latch (not shown) is released, the movable contactor 30 is quickly separated from the fixed contactor 20 by the elastic force of the trip spring (not shown) of the opening / closing mechanism 40.

Here, since the direct trip device 60 'is a type in which a current flows in the bimetal 62' and the bimetal 62 'directly generates heat, the amount of heat generated is high even at a low rated current, Is used.

However, in the conventional trip device for a circuit breaker as described above, there is a problem that the fault current can not be effectively detected due to insufficient amount of bimetal bending due to insufficient calorific power at a low rated current, There arises a problem that the bimetal is damaged by the current.

SUMMARY OF THE INVENTION An object of the present invention is to provide a trip device for a circuit breaker capable of detecting a fault current effectively by obtaining a sufficient amount of heat and a curvature while preventing damage to the bimetal when the fault current flows.

It is another object of the present invention to provide a trip device for a circuit breaker which can achieve a desired rated current of a circuit breaker within a limited design space.

In order to accomplish the object of the present invention, there is provided a semiconductor device comprising: a first terminal connected to a power source side or a load side; A second terminal connected to the load side or the power source side; And a bimetal having a first end and a second end, the first end and the second end being connected to the first terminal and the second terminal, respectively; , The bimetal is generated by a current flowing between the first end and the second end, and the amount of heat generated varies according to the length of the slot.

Also, the first terminal may be provided with a heater for heating the bimetal to generate heat during energization, and a trip device for a circuit breaker may be provided.

The heater may include: a rectilinear section that at least part of the heater contacts the bimetal to heat the bimetal through conduction; And a heat dissipating part for heating the bimetal through convection or radiation by offsetting the remaining part to the bimetal.

Also, the heater may be provided with a trip device for a circuit breaker which is offset to the bimetal to heat the bimetal through convection or radiation.

A trip device for a circuit breaker according to the present invention includes a first terminal connected to a power source side or a load side, a second terminal connected to the load side or the power source side, and a slot having one end opened at one end, Wherein the bimetal is heated by the current flowing between the first end and the second end and the first end and the second end are connected to the first terminal and the second terminal, The calorific value varies accordingly. Accordingly, the trip device for a circuit breaker according to the present invention adjusts the resistance value by adjusting the distance of the current flowing between the first terminal and the second terminal in the limited space by adjusting the length of the slot, The rated current can be set as desired. That is, if the length of the slot is long, the distance of current flow between the first end portion and the second end portion is increased, the resistance value is increased, the bimetallic calorific value and the curvature amount are increased, A rated current specification circuit breaker capable of detecting a fault current may be implemented and if the length of the slot is shortened, the distance of current flow between the first end and the second end decreases, the resistance value decreases Rated bimetals and curvature are reduced, a high rated current circuit breaker may be implemented that can effectively detect fault currents without bimetallic damage at high rated currents, and any high current rating circuit breaker between the low rated current specification and the high rated current specification Circuit breakers meeting the desired rated current specifications may be implemented.

Further, the trip device for a circuit breaker according to the present invention includes a heater which generates heat upon energization of the first terminal, so that the temperature of the bimetal is increased by the heat generated by the current flowing between the first end and the second end, A circuit breaker can be realized which can maximize the effect of improving the operation reliability by securing a sufficient calorific value without damaging the bimetal.

In this case, the trip device for a circuit breaker according to the present invention can realize a circuit breaker which is more suitable for a low rated current while maintaining the function of preventing the bimetal from being damaged by direct heating of the heater, It is possible to design a circuit breaker which is more suitable for a high rated current which more effectively prevents damage to the bimetal. Also, the circuit breaker may be designed to complement the disadvantages of the direct heating type and the heat dissipation type by using the heater as the direct thermal type.

1 is a sectional view showing a conventional circuit breaker,
FIG. 2 is a perspective view showing the indirect trip device of FIG. 1,
3 is a perspective view showing a conventional trip device for a conventional circuit breaker,
4 is a perspective view showing a trip device according to the first embodiment of the present invention,
Fig. 5 is a front view showing the bimetal of Fig. 4,
FIG. 6 is a front view showing a case where the slot length of FIG. 5 is short,
Fig. 7 is a front view showing the heater of Fig. 4,
8 is a side view of Fig. 7,
FIG. 9 is a perspective view showing the current flow direction of FIG. 4,
10 is a perspective view showing a trip device according to a second embodiment of the present invention.

Hereinafter, a trip device for a circuit breaker according to the present invention will be described in detail with reference to embodiments shown in the accompanying drawings.

4, the circuit breaker 160 for a circuit breaker according to the first embodiment of the present invention includes a slot 162b having one end opened at one end thereof, A bimetal 162 according to the present invention divided into a first end 162c and a second end 162d and a first terminal 162c coupled to the first end 162c and connected to a power source side or a load side circuit, And a second terminal 164 coupled to the second end 162d and connected to the load side or the power source side circuit.

The bimetal 162 according to the present invention is a member that curves in one direction as the temperature rises. As shown in FIG. 5, the bimetal 162 includes a first terminal 166 and a second terminal 166 according to the first embodiment of the present invention, A first end 162c is divided into a second end 162d and a pressing member 162a is provided at the other end of the first end 162c and the second end 162d, ), And when the temperature rises, the crossbar (42 shown in Fig. 1) is rotated through the pressing member 162a by bending.

In this case, the slot 162b is in the form of a slot in which one side is open, and the distance from the opened side to the other side of the opposite side, that is, the length L is formed as shown in FIG. 5 according to the rated current to be designed, However, if the shortest distance through which the current flows between the first end 162c and the second end 162d can be adjusted, it may be formed in various shapes such as a circular hole with one side opened.

The bimetal 162 is symmetrical about the slot 162b in order to increase the sensitivity and facilitate the adjustment of the rated current by adjusting the length L of the slot 162b, that is, the first end 166 And the second end portion 164 are formed symmetrically with respect to each other.

4, the first terminal 166 according to the first embodiment of the present invention includes a first terminal portion 166a connected to a power source side or a load side circuit, a first terminal portion 166a, And a heater 166b which is connected to the first end 162c of the bimetal 162 according to the present invention and generates heat when energized.

As shown in Fig. 4 and Fig. 7 to Fig. 8, the heater 166b is a heating member having a substantially rectangular shape, and includes a straight portion 166b1 which is one surface corresponding to the lower portion in the figure, The bimetal 162 of the present invention and the heat dissipating portion 166b2 of the upper surface correspond to the first end 162c of the bimetal 162 according to the present invention in the straight portion 166b1, And is connected to the first terminal portion 166a at the heat radiating portion 166b2 and is offset from the bimetal 162 according to the present invention.

In this case, the heater 166b is provided with the straight portion 166b1 at the lower portion of the drawing of the heater 166b, the heat radiating portion 166b2 at the upper portion of the heater 166b, Is connected to the first end portion 162c of the bimetal 162 according to the present invention and contacts the lower portion of the bimetal 162 according to the present invention and the heat dissipating portion 166b2 is connected to the first terminal portion 166a The bimetal 162 according to the present invention is offset from the upper part of the drawing of the bimetal 162 according to the present invention. On the contrary, in other words, the direct part is formed on the upper part of the heater, The bimetal 162 is connected to the first end 162c of the bimetal 162 and is offset from the bottom of the bimetal 162 according to the present invention and the straight portion is connected to the first terminal 166a, 162, or a straight portion is formed at the cut-away portion of the heater in the figure, The lower heat radiation portion is connected to the first end portion 162c of the bimetal 162 according to the present invention and is offset from the lower portion of the bimetal 162 according to the present invention, The upper portion of the bimetal 162 may be offset from the upper portion of the bimetal 162 according to the present invention while the upper portion of the bimetal 162 is connected to the first terminal portion 166a, And can be connected in a branched form.

The heater 166b is a rectangular heating type in which the straight portion 166b1 and the heat dissipation portion 166b2 are provided at the same time but the heater is flatly formed so that the first end of the bimetal 162 162c and the other side is connected to the first terminal portion 166a and the entire heater is in direct thermal contact with the bimetal 162 according to the present invention and only the direct heating portion is provided, The first terminal portion 166a may be connected to the first end portion 162c of the bimetal 162 and the other end portion may be connected to the first terminal portion 166a and the entire heater may be offset from the bimetal 162 according to the present invention.

The second terminal 164 serves as a bracket for supporting the bimetal 162 according to the present invention and electrically connects the bimetal 162 according to the present invention to the load side or the power source side circuit. A second terminal portion 164a connected to the load side or the power source side circuit and a second end portion 162d of the bimetal 162 according to the present invention extending substantially perpendicularly from the second terminal portion 164a, And an engaging portion 164b connected to the engaging portion 164b.

Hereinafter, the operation and effect of the trip device 160 for a circuit breaker according to the first embodiment of the present invention will be described.

That is, in the trip device 160 for a circuit breaker according to the first embodiment of the present invention, the current flows from the second terminal portion 164a to the coupling portion 164b, the second end portion The bimetal 162 according to the present invention flows from the second end 162d to the first end 162c through the first end 162c, the first end 162c, the second end 162d, the first end 162c and the heater 166b, And the bimetal 162 according to the present invention is heated by conduction of the straightening portion 166b1 from the heater 166b that generates heat and is heated by convection or radiation of the heat dissipating portion 166b2. For reference, the manner in which the bimetal 162 according to the present invention is directly heated and heated by the heater 166b, like the trip device 160 for a circuit breaker according to the first embodiment of the present invention, is referred to as direct or indirect . Referring to FIG. 4, the bimetal 162 according to the present invention, in which the temperature is directly or indirectly increased or increased, is curved in the right direction in the drawing. The amount of heat generation and the amount of curvature are small at the normal current, When a fault current such as a short-circuit current is generated in the circuit, the amount of heat generation and the amount of curvature are increased so that the crossbar (42 shown in Fig. 1) is pressed and rotated by the pressing member 162a, The rotation of the crossbar (42 shown in Fig. 1) restrains the latch (not shown) of the opening and closing mechanism (40 shown in Fig. 1) to finally release the movable contact (30 shown in Fig. 1) As shown in FIG.

In this process, the slot 162b is formed by increasing the distance through which the current flows from the second end 162d to the first end 162c to increase the resistance value so that the amount of heat and the amount of curvature of the bimetal 162 according to the present invention .

In this case, the trip device 160 for circuit breaker according to the first embodiment of the present invention is configured such that the length L of the slot 162b is lengthened and the second end 162d is extended, The amount of heat generated by the bimetal 162 according to the present invention and the amount of curvature can be increased at a low rated current by increasing the distance at which the current flows from the first end 162c to the first end 162c. The length of the slot 162b may be shortened to reduce the resistance value by reducing the distance at which the current flows from the second end 162d to the first end 162c, The amount of heating and the amount of curvature of the bimetal 162 may be reduced. That is, the circuit breaker trip device 160 according to the first embodiment of the present invention adjusts the length L of the slot 162b of the bimetal 162 according to the present invention, The rated current can be set to a desired value by adjusting the resistance value by adjusting the distance of the current flowing from the first end 162c to the first end 162c, thereby adjusting the calorific value and the amount of curvature of the bimetal 162 according to the present invention.

Although the trip device 160 for a circuit breaker according to the first embodiment of the present invention starts to flow a current from the second terminal portion 164a to the first terminal portion 166a, 166a to the second terminal portion 164a.

Here, the trip device 160 for a circuit breaker according to the first embodiment of the present invention includes a slot 162b having one end opened at one end, and the one end of the trip device 160 is connected to the first end 162c and the second end 162d A first terminal 166 connected to the first end 162c and connected to the power source side or the load side circuit according to the first embodiment of the present invention and a second terminal 166 connected to the first end portion 162c, And the second terminal 164 connected to the load side or the power source side circuit and the length L of the slot 162b of the bimetal 162 according to the present invention is adjusted, It is possible to adjust the resistance value by adjusting the distance of current flow between the end 162c and the second end 162d and to adjust the heating value and the amount of curvature of the bimetal 162 according to the present invention. That is, the trip device 160 for a circuit breaker according to the first embodiment of the present invention is configured such that the length L of the slot 162b is made longer in a limited space, and the first end 162c and the second The resistance value is increased, the amount of heat generated by the bimetal 162 according to the present invention and the amount of curvature are increased, a sufficient amount of heat is generated even at a low rated current, And the length L of the slot 162b may be shortened to reduce the distance the current flows between the first end 162c and the second end 162d , It is possible to implement a high rated circuit breaker capable of reducing the resistance value and reducing the amount of heat generated and the amount of bending of the bimetal 162 according to the present invention and effectively detecting a fault current without damaging the bimetal even at a high rated current, Rated current Volume and may implement a circuit breaker in accordance with the rating current specification to any desired specification of between rated current.

The circuit breaker trip device 160 according to the first embodiment of the present invention includes the heater 166b that generates heat when the first terminal 166 according to the first embodiment of the present invention is energized, The bimetal 162 according to the present invention is configured such that the temperature is raised by the heat generated by the current flowing between the first end 162c and the second end 162d and the heat from the heater 166b Thus, it is possible to realize a circuit breaker which can maximize the effect of improving the operation reliability by ensuring a sufficient calorific value without damaging the bimetal.

In addition, the trip device 160 for a circuit breaker according to the first embodiment of the present invention can realize a circuit breaker which maintains the function of preventing the damage of the bimetal by directly heating the heater, The circuit breaker may be more suitable for a high rated current which more effectively prevents the damage of the bimetal by making the heater a heat dissipating type. The heater may be a rectilinear type to compensate the disadvantages of the direct thermal type and the heat dissipative type Circuit breakers may be implemented.

Next, a trip device 260 for a circuit breaker according to a second embodiment of the present invention, as shown in FIG. 10, differs in configuration from the first embodiment in that a lead wire 266c ).

That is, as shown in FIG. 10, the trip device for a circuit breaker 260 according to the second embodiment of the present invention includes a slot 162b having one end opened at one end thereof, And a first terminal 162c connected to the first end 162c and connected to the power source side or the load side circuit according to the second embodiment of the present invention, And a second terminal 164 connected to the second end 162d and connected to the load side or the power source side circuit. The first terminal 266 according to the second embodiment of the present invention is connected to the power source side A lead wire 266c connected to the first terminal portion 166a at one side and connected to the first end 162c of the bimetal 162 according to the present invention at one side, .

The lead wire 266c serves to connect the first terminal portion 166a and the first end portion 162c in a circuit manner.

The same reference numerals are given to the same parts in the drawings as in the first embodiment.

Hereinafter, the operation and effect of the trip device for circuit breaker 260 according to the second embodiment of the present invention will be described.

That is, in the trip device for a circuit breaker 260 according to the second embodiment of the present invention, the current flows from the second terminal portion 164a to the coupling portion 164b and the second end portion The bimetal 162 according to the present invention flows from the second end portion 162d to the first end portion 162c through the first end portion 162d and the first end portion 162c and the lead wire 266c to the first terminal portion 166a It is directly heated by current. For reference, as in the case of the trip device 260 for a circuit breaker according to the second embodiment of the present invention, the manner in which the bimetal directly generates heat is referred to as a direct mode. The bimetal 162 according to the present invention, in which the temperature of the bimetal 162 is directly heated, is curved in the right direction in the drawing. The amount of heat and the amount of curvature are small at normal current, , And when a fault current such as a short-circuit current occurs in the circuit, the amount of heat generation and the amount of curvature are increased and the crossbar (42 shown in FIG. 1) is pressed and rotated through the pressing member 162a. The pivotal motion releases the latch (not shown) of the opening / closing mechanism (40 shown in Fig. 1) to finally release the movable contact (30 shown in Fig. 1) from the fixed contact (20 shown in Fig.

Here, the trip device for a circuit breaker 260 according to the second embodiment of the present invention includes a slot 162b having one end opened at one end thereof, and the one end of the trip device is connected to the first end 162c and the second end 162d A first terminal 266 connected to the first end 162c and connected to the power source side or the load side circuit according to the second embodiment of the present invention, And a second terminal 164 connected to the load side or the power source side circuit and connected to the first terminal 162d and the length L of the slot 162b of the bimetal 162 according to the present invention, It is possible to adjust the resistance value by adjusting the distance of the current flowing between the first end 162c and the second end 162d and to adjust the calorific value and the amount of curvature of the bimetal 162 according to the present invention to set the rated current as desired. That is, the trip device 260 for a circuit breaker according to the second embodiment of the present invention is configured such that the length L of the slot 162b is made longer in a limited space, and the first end 162c and the second The resistance value is increased, the amount of heat generated by the bimetal 162 according to the present invention and the amount of curvature are increased, a sufficient amount of heat is generated even at a low rated current, And the length L of the slot 162b may be shortened to reduce the distance the current flows between the first end 162c and the second end 162d , It is possible to implement a rated rated current circuit breaker capable of reducing the resistance value and reducing the amount of heat and the amount of bending of the bimetal 162 according to the present invention and effectively detecting the fault current even at a high rated current without damaging the bimetal. Low Rating Acids may implement the specification and the high current circuit breaker in accordance with the rating of the specification to any desired specification between the rated current.

The trip device for a circuit breaker 260 according to the second embodiment of the present invention includes a first terminal 266 connected to a power source side or a load side circuit, And a lead wire 266c connected to the first terminal portion 166a at one side and connected to the first end portion 162c at the other side so that the bimetal 162 according to the present invention is connected to the first end portion 162c The direct trip device in which the temperature is raised by the heat generated by the current flowing between the second end portions 162d can be configured to realize a simpler and less expensive circuit breaker than the first embodiment.

The shape of the bimetal 162 according to the present invention, the shape of the slot 162b and the shape of the second terminal 164, and the connection of the second terminal 164 to the other components of the trip device for circuit breaker 260 according to the second embodiment of the present invention, The description of the relationship and operation effect is the same as that of the first embodiment described above and will be omitted in order to avoid duplication.

Other components and operation effects of the circuit breaker other than the trip devices 160 and 260 for the circuit breaker according to the present invention are the same as those of the prior art and will not be described in order to avoid redundancy.

10: Case 20: Fixed contact
30: movable contactor 40: opening / closing mechanism
42: Crossbar 50: Handle
60: Indirect trip device 60 ': Direct trip device
62, 62 ': bimetal 62a, 62a': pressing member
64, 64 ': second terminal 64b: heater
66, 66 ': first terminal 66c': lead wire
160: Trip device for circuit breaker according to the first embodiment of the present invention
162: Bimetal 162a according to the present invention:
162b: slot 162c: first end
162d: second end 164: second terminal
164a: second terminal portion 164b:
166: First terminal according to the first embodiment of the present invention
166a: first terminal portion 166b: heater
166b1: a straight portion 166b2:
260: trip device for circuit breaker according to the second embodiment of the present invention
266: According to the second embodiment of the present invention,
266c: Lead wire L: Length of the slot

Claims (6)

A first terminal connected to the power source side or the load side;
A second terminal connected to the load side or the power source side; And
A bimetal formed at one end thereof with an open slot, the bimetal having one end divided into a first end and a second end, connected to the first terminal at the first end, and to the second terminal at the second end; / RTI >
The bimetal may comprise,
A first end portion of the first end portion and a second end portion of the second end portion,
A calorific value is changed according to the length of the slot,
Wherein the slot is formed symmetrically about the slot. delete The method according to claim 1,
And the first terminal includes a heater that generates heat when energized to heat the bimetal. The method of claim 3,
The heater
At least a portion of which contacts the bimetal and heats the bimetal through conduction; And
And a heat dissipating part for heating the bimetal through convection or radiation by offsetting the remaining part to the bimetal. The method of claim 3,
And a heat dissipating unit for heating the bimetal by means of convection or radiation offset from the bimetal. The method according to claim 4 or 5,
The heat dissipation unit includes:
A distance from the bimetal is constant,
Wherein a portion of the bimetal opposite to the heat dissipating portion is provided symmetrically with respect to a longitudinal center line of the bimetal.

Images